KR100967607B1 - signal cable of electronic machine - Google Patents

Abstract

The present invention relates to a signal cable for connecting electronic devices to each other, and more particularly, to fill a powdered ferrite core inside the connector of the signal cable.

In the past, a signal cable in which ferrite cores were built into the connector was present, but there was a limitation in the work process and the electromagnetic shielding effect due to the structure of the ferrite cores.

Therefore, the present invention has been devised, and when the powder type ferrite core is filled inside the connector as in the present invention, the process of separately inserting the ferrite core into the cable is shortened, thereby improving productivity and significantly reducing the coating material. It is quite economical in terms of cost savings.

In addition, since the location where the ferrite core is embedded is the core part where the insulator is peeled off to connect with the pin, the effect of blocking the inflow of electromagnetic waves is also excellent compared to the existing cable connector, and the 9 cores of the signal line are buried in the powder core. Thus, the interference between core wires is completely prevented, and the shielding effect is maximized.

In addition, the filling process is performed in the final work performed after all the processes, such as connecting a core wire to a pin and assembling a metal shell in a shield can, thus making the overall process very easy.

In addition, since the powder can be filled to fill the inside of the shield can tightly, and the harmful electromagnetic waves are grounded through the shield can, the EMI shielding effect is much better than the existing embedded ferrite cores. The higher the band, the better the effect.

Cables, Connectors, Ferrite Cores

Description

Signal cable for electronic device

The present invention relates to a signal cable for connecting electronic devices to each other, and more particularly, to fill a powdered ferrite core inside the connector of the signal cable.

Looking at the connector configuration of the signal cable to which the present invention belongs, as shown in Figure 2, the pin is connected to the insulator 30 and the core wire 40 inside the metal shell 20, the shield to the rear of the metal shell 20 Can 11 is attached, it is made of a structure wrapped again with a hood (70).

On the other hand, the signal cable is attached to the ferrite core in order to prevent unnecessary electromagnetic waves from flowing from the outside, conventionally, as shown in Figure 1, the cylindrical ferrite core 80 is inserted (inserted) outside the cable and the outer peripheral surface The complicated process of fixing (shell) to PVC (bonding) is unsightly in appearance, and the cable is connected behind the computer body when the computer body is installed, so the cable is not bent smoothly due to the cylindrical ferrite core attached to the cable. As a result, the inconvenience of securing a certain space behind the main body occurs.

In other words, in order to connect the core wire 40 to the pin 90, it is necessary to peel off all kinds of insulator coatings such as braids or aluminum foils surrounding the core wire, and the part is the most vulnerable to harmful electromagnetic wave blocking.

Therefore, the closer the ferrite core that blocks harmful electromagnetic waves to the core line where the coating is peeled off, the greater the shielding effect.

However, if the ferrite core 80 is attached directly behind the connector because it is located close to the connector, the cable is not bent smoothly due to the cylindrical ferrite core attached to the cable when the electronic device body is installed. Discomfort will occur.

Therefore, Utility Model Registration No. 101248 developed by the present applicant to solve this problem (the ferrite core embedded type sub-connector, etc., the present invention is embedded in the ferrite core 81 inside the de-sub metal shell as shown in FIG. By doing so, the workability must be very excellent compared to attaching a cylindrical ferrite core to a conventional cable. However, as the pin is penetrated through the 15 pin holes formed in the ferrite core, it requires a considerable work process and requires a high assembly cost. As the length of the pin increases, the shell surrounding it also becomes large, resulting in an increase in the overall cost.

In addition, the size of the ferrite core is also small, there was a slight lack to expect the maximum shielding effect.

Background arts of the present invention include Utility Model Registration No. 101248 and Patent Application No. 2007-21739 previously filed by the present applicant.

In the signal cable (10) having a connector at both ends to surround the rear end of the metal shell (20) with the insulator (30) and the pin (90) with the shield can (11), and then wrap it with the hood (70), A portion of the upper surface of the connector shield can 11 is cut out and a powder ferrite core 13 is inserted into the shield can 11 through the cut-out portion 12 to form a powder-type ferrite core ( After filling with 13), the cutout 12 is closed with an aluminum metal tape 14.

Since the present invention is filled with powdered ferrite core inside the connector, it is possible to considerably reduce the coating material required for inserting the ferrite core in the cable, which is economical in terms of raw material saving.

In addition, since the pins located inside the connector are completely embedded in the powder ferrite core, the effect of blocking the inflow of electromagnetic waves is much higher than that of the conventional cable connector. Especially, the higher the frequency band, the better the EMI shielding effect. appear.

In addition, the filling process is performed in the final work performed after all the processes, such as connecting a core wire to a pin and assembling a metal shell in a shield can, thus making the overall process very easy. .

In addition, the powder can be filled so that the inside of the shield can is filled with a full, the electromagnetic shielding effect is superior to the existing embedded ferrite core.

In the signal cable (10) having a connector at both ends to surround the rear end of the metal shell (20) with the insulator (30) and the pin (90) with the shield can (11), and then wrap it with the hood (70), A portion of the upper surface of the connector shield can 11 is cut out, and a powder ferrite core 13 is injected into the shield can 11 by injecting powder ferrite core 13 through the cut portion 12. After filling with), the cutout 12 is closed with an aluminum metal tape 14.

Hereinafter, the present invention will be described in more detail.

The greatest feature of the cable 10 of the present invention is first, to fill the powder-type ferrite core inside the shield can (11) that surrounds and protects the pin 90 to which the insulator 30 and the core wire 40 are connected. .

First, the shield can 11 containing the powder-type ferrite core as a component of the present invention will be described. The shield can 11 has a seamless cylindrical shape at all, and the cylindrical shield can is the present applicant. This is described in detail in the previously filed patent application No. 2007-21739, which will be briefly described.

That is, in the related art, the shield can is separated into an upper cap and a lower cap, and there is a difficulty in manufacturing as well as difficulty in manufacturing by assembling the shield can, but the shield can used in the present invention has no seam at all. It is composed of one cylindrical type, which is excellent in efficiency in manufacturing and shielding effect.

Particularly, in the case of the present invention, the powder type ferrite core is filled, so that such a cylindrical shield can is very suitable for the application in order to prevent the powder from leaking out.

Next, the ferrite core will be described.

Originally, in order to connect the core wire 40 to the pin 90, all the various insulator coatings (braiding, aluminum foil, etc.) surrounding the core wire should be peeled off, and the part is the most vulnerable to harmful electromagnetic wave blocking.

Therefore, as the ferrite core that blocks harmful electromagnetic waves is located closer to the core line where the insulator is peeled off, the shielding effect is increased.

However, in the related art, since the cylindrical ferrite core 80 is inserted into the outside of the cable and the outer circumferential surface (shell) is fixedly bonded with PVC, the ferrite core cannot be placed close to the connector.

In other words, if the ferrite core 80 is attached directly behind the connector to be located close to the connector part, when the electronic device main body (computer) is installed, the cylindrical ferrite core mounted on the cable does not bend the part smoothly so that a certain space is provided behind the main body of the electronic device. Inconvenience to be secured will occur.

Therefore, in order to solve this problem, a configuration for embedding the ferrite core 81 inside the shield can of the connector as shown in FIG. 6 has been developed. Such a configuration is well shown in Utility Model Registration No. 101248 filed by the present applicant. The invention is also invented in this context.

As shown in FIG. 2, the shield can 11 is removed by cutting a portion of the upper surface of the connector shield can 11 and injecting a ferrite core 13 in powder form through the cut-out 12. After filling the inside with a powder-type ferrite core 13, the cutout 12 is sealed by an aluminum metal tape 14 to seal it.

In the above, the process of filling the ferrite core 13 in powder form is carried out after the final work, such as connecting the core wire to the pin and assembling the metal shell 20 to the shield can 11 Is done.

Therefore, in assembling the connector site, all the work process is made in the absence of ferrite core has the advantage that the difficult process is made easier.

In addition, in filling the powder ferrite core 13, the powder flows through the cutout portion 12 formed on the upper surface of the shield can 11, and mechanically lightly vibrates when the powder is inserted. Shaking will allow the inside of the shield can to be filled with ferrite core powder.

In addition, after the powder is filled into the shield can, the cutout portion 12 of the shield can is closed by attaching a metal tape 14 to complete the process, so that the ferrite core can be easily embedded inside the shield can as a whole. .

As described above, the signal cable of the present invention is to fill the powder-type ferrite core inside the connector, and the industrial applicability will be sufficient because the shielding effect on electromagnetic waves is very excellent as compared to the existing cable.

1 is a partial perspective view of a conventional cable.

Figure 2 is a partial exploded view of the cable of the present invention, before a tape is attached.

Figure 3 is a partial exploded view of the cable of the present invention, a perspective view after attaching the tape.

4 is a cross sectional view of a connector attached to one end of the cable, before the powdered ferrite core is filled;

Fig. 5 is a sectional view of the connector attached to one end of the cable, in which the powdered ferrite core is filled.

6 is a cross-sectional view of a connector of a conventional cable.

Claims (1)

A signal cable 10 having a connector at both ends having a shell shell 11 having a metal shell embedded with an insulator and a pin, and having a connector 70 wrapped therein with a hood 70, the upper surface of the connector shield can 11. A portion of the incision is removed, and the ferrite core 13 in powder form is inserted through the incision 12, and the inside of the shield can 11 is filled with powder type ferrite core 13, and the incision portion ( 12) is a signal cable for an electronic device, characterized in that sealed with a tape (14).

Images